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I'm using a texture attached to a framebuffer as a custom depth buffer. In a first rendering pass, I render to the texture so it stores the depth values. In the second rendering pass, I do a lookup from this texture to decide whether to render or discard the fragment.

This works well, except that on the device (iPad 3), there are some annoying artifacts which seem to come from some kind of rounding error which happens when the depth values are written to the texture. I tried writing some fixed value like 0.5 to the texture, but when it is read back from the texture, it's more than 0.03 higher or lower than 0.5.

I 'encode' the depth value into three RGB values (the fourth component, alpha or w, is ignored):

const highp vec4 packFactors = vec4(1.0, 256.0, 256.0 * 256.0, 256.0 * 256.0 * 256.0);
const highp vec4 cutoffMask  = vec4(1.0 / 256.0, 1.0 / 256.0, 1.0 / 256.0, 0.0);

void main() {
    highp float depth = ...
    ...
    highp vec4 packedVal = fract(packFactors * depth);
    packedVal.x = depth;      // undo effect of fract() on x component
    gl_FragColor = packedVal - packedVal.yzww * cutoffMask;
}

This way, I get 3x8 bits precision to store the depth (inspired by http://www.rojtberg.net/348/powervr-sgx-530-does-not-support-depth-textures)

In the other fragment shader (second rendering pass), I read from the texture like this:

    highp vec4 depthBufferLookup = texture2D(depthTexture, vDepthTex);
    highp float depthFromDepthBuffer = dot(depthBufferLookup, vec4(1.0) / packFactors);

using the same values for packFactors as in the first shader.

I would expect this procedure to give a decent precision, but an error of more than 0.03 at a value of 0.5 makes it pretty unusable.

Any hints?

BTW I'm using the following texture type:

glTexImage2D(GL_TEXTURE_2D, 0, GL_RGB, width, height, 0, GL_RGB, GL_UNSIGNED_BYTE, data);
share|improve this question
1  
I think you can just use a depth texture (that page is a little out of date). A quick search of GLES2 extensions on iPad (stackoverflow.com/questions/11159811/…) would suggest GL_OES_depth_texture is available these days. – GuyRT Jul 1 '13 at 11:24
    
Thanks, I'm trying to do that, but got stuck, see separate question here: stackoverflow.com/questions/17598789/… – cheeesus Jul 11 '13 at 16:32
    
After some more research, I think that GL_OES_depth_texture is no option for me, because the fragment shader calculates the depth per fragment, not per vertex. This means that the depth values I need are in gl_FragColor and not in the depth values like gl_FragCoord.z. – cheeesus Jul 11 '13 at 20:19

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